Gravitational Waves from Compact Object Binaries
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1 Gravitational Waves from Compact Object Binaries Ashley J. Ruiter New Mexico State University / Center for Astrophysics Graduate Student / Pre-doctoral Fellow Dr. Chris Belczynski (PhD Advisor) Los Alamos / J. Kepler Institute of Astronomy, Univ. of Zielona Gora Collaborators: Dr. Matthew Benacquista (CGWA, U of Texas, Brownsville) Dr. Shane Larson (Utah State University) Dr. Kelly Holley-Bockelmann (Vanderbilt) Institute for Physics and Mathematics of the Universe Seminar Kashiwa, Japan Feb. 25, 2009
2 Outline binary evolution very brief overview StarTrack population synthesis code wd + wd binaries (LISA) ns + ns, ns + bh, bh + bh (e.g., LIGO)
3 Binary Star Evolution importance of close binaries ~ 2/3 of stars are in binary systems (50% binary fraction) Observations: initial orbital parameters (separations, eccentricities, initial binary star mass ratios) somewhat constrained (observations very difficult)! Close binaries give rise to interesting and higly energetic astrophysical phenomena (SNIa explosions, novae bursts, Super Soft X-ray Sources, accretioninduced collapse, Gravitational Radiation (GR), Gamma Ray Bursts) Most uncertain phase of binary evolution which brings stars close together : Common Envelope (CE)
4 t=4780 Myr e=0.67 P=8.7 yr M=1.86 M=1.33 tides... t=6440 Myr e=0.0 P=3.4 yr P=30 d M=1.63 M=0.58 CO WD AGB envelope t=9244 Myr P=25 d P=3.4 hr RG envelope M=0.58 M=1.32 M=0.29 He WD t=10000 Myr P=160 min t=10780 Myr P=3 min Grav. Radiation... LISA sees system at 10 Gyr (disc system) fgr= Hz RLOF begins (AM CVn) t=13660 Myr P=74 min M=0.84 M=0.01
5 Modeling the Stellar Population(s) Population Synthesis - Monte Carlo method of evolving a stellar population from the ZAMS to uncover and assess the efficiency of particular formation channels of various stellar/binary types Use the StarTrack population synthesis code (Belczynski et al. 2002; 2008) to evolve the (Galactic) population of field single and binary stars incorporating modified analytical formulae for stellar evolution (Hurley et al. 2000) Binary evolution: Consider common envelope (CE) evolution, metallicity, IMF, binary fraction, mass accretion efficiencies, supernova kicks, gravitational radiation, magnetic braking, SFR Identify the formation channels and physical characteristics, (e.g. calculate LISA gravitational wave frequencies, CV X-ray luminosity function(s) or SN Ia delay times and rates)
6 Gravitational Radiation (GR) Predicted by General Relativity: massive objects undergoing acceleration will warp space-time in a detectable* way Many astrophysical objects are not observable in the electromagnetic spectrum, but can be bright in gravitational waves Close binary stars will lose orbital angular momentum due to emission of GWs: circular binaries f GR = 2/Porb [Hz]; the spacetime distortion propagates outward manifested as GWs Ground-based GW detectors are currently operational (f GR > 10 Hz) - no detections yet... TAMA 300 *GWs have not yet been directly observed, but have been inferred from obser vations (pulsar , Hulse & Taylor) LIGO
7 LISA LISA: Laser Interferometer Space Antenna Future space-based Gravitational Wave detector and will be sensitive to astrophysical sources such as merging supermassive BHs, Extreme Mass Ratio Inspirals (EMRIs), & stellar-mass binaries in MW (also: DECIGO) At low frequencies, there will be 100s of MW white dwarf binaries per resolvable frequency bin, and so signal will be confusion-limited and binaries unresolvable (confusion foreground) Δfbin = 30 nhz Not ONLY noise! Some 1000s of WD binaries will be resolved offering an unprecedented opportunity to study post-common Envelope binaries and learn more about binary evolution, WD structure
8 Galactic Double WDs - important confusion noise for LISA Double WD confusion foreground will hinder detection of other GW sources below a few mhz (i.e., extreme mass ratio inspirals - probe of strong gravity regime) Understanding of physical characteristics of Galactic double WDs allows to correctly remove them from LISA data stream Setting limits on double WD physical properties will aid in the development of improved data analysis techniques (Mock LISA Data Challenges); optimize GR source detection
9 LISA sensitivity to Galactic double WDs: Confusion Noise Several studies (i.e., Hils et al. 1990; Nelemans et al. 2001, etc.) have calculated the LISA GR signal from Galactic WD binaries Frequency = 2/Porb (space) (ground)
10 StarTrack spatial distribution of sources (bulge, disc, halo)
11 Galactic and Halo DWD LISA signals (LISA signal simulator; Benacquista et al. 2004) arxiv:0705:3272 (ApJ submitted); arxiv:0712:0847 (ApJ In Press) log(f) = -2.1 = Hz
12 Double Compact Objects: Observations Detection of Gravitational Waves Double Compact Objects: A Brief Overview Chris Belczynski 1,2,3 1 Los Alamos National Laboratory 2 Oppenheimer Fellow 3 EXIST Team Ashley Ruiter on Behalf of Chris Belczynski, Japan, Feb 2009 Chris Belczynski Double Compact Objects
13 Double Compact Objects: Observations Detection of Gravitational Waves Observations: known double compact objects BH-BH, BH-NS: no observations NS-NS: 9 Galactic systems. 6 are close: Phone # 1) B ) B ) J ) J ) J ) B C M ns,1 /M M ns,1 /M t mrg /Gyr Comment field filed field field field cluster short lived systems: 0.3 Gyr (pulsar age) Gyr (merger time) empirical Galactic merger rate: Myr 1 (Kim et al. 06) Chris Belczynski Double Compact Objects
14 Double Compact Objects: Observations Detection of Gravitational Waves Galactic Perspective Extragalactic Perspective Predictions for LIGO: field populations Galactic merger rates: high for NS-NS inspiral small for BH-NS and BH-BH (model dependent: CE phase) LIGO detection rates: no chance for LIGO I many detections for LIGO II Detection rates dominated by: NS-NS: M chirp = 1.2M (Mod1) if BH-BH (Mod2): field population: M chirp 7M (survival through CE: how?). Table: Galactic Merger Rates [Myr 1 ] Model NS-NS BH-NS BH-BH Mod Mod Table: LIGO II Detection Rates [yr 1 ] Model NS-NS BH-NS BH-BH Mod Mod Mod1 (mergers) -> Mod2 (avoided): Mergers in Common Envelope with Hertzsprung Gap donors Chris Belczynski Double Compact Objects
15 Double Compact Objects: Observations Detection of Gravitational Waves. Galactic Perspective Extragalactic Perspective Observations: known BH masses 4 14M : Galactic BHs (20 known) 17 transients: low mass companion 3 persistent: massive companion BH-NS? most probably SN disruption 16M : M33 X-7 (Orosz et al. 07) massive 70M close companion BH-BH? most probably MT merger 24M : IC10 X-1 (Prestwich et al. 07) massive 17M close WR companion BH-BH? most probably YES Despite recent claims: Stellar models can explain BHs to 30M Chris Belczynski Double Compact Objects
16 Double Compact Objects: Observations Detection of Gravitational Waves IC10 X-1: evolution and fate Mzams M Mzams 50 M BH ~ ~ t ~ 4Myr t 5Myr 24 M P orb~ 33h t ~ 1Myr ~ 17 M WR Galactic Perspective Extragalactic Perspective Depending on the adopted WR winds: BH-NS is formed (Nugis&Lamers) BH-BH is formed (Hamann&Koesterke) BH 25 M 4 M 12 M WR SN I b c DIRECT COLLAPSE 0 BH NS BH ~ 1.4 M ~ 25 M 11 M LIGO SWIFT BH-BH MERGER BH-NS MERGER? ~ t GR 2-3 Gyr t GR 10 G yr ~ Belczynski 2009 Chris Belczynski Double Compact Objects
17 Double Compact Objects: Observations Detection of Gravitational Waves Galactic Perspective Extragalactic Perspective Gravitational radiation: LIGO/VIRGO Galactic NS-NS merger rates: empirical NS-NS: Myr 1 (Kim, Kalogera & Lorimer 06) recent population synthesis: Myr 1 (Belczynski et al. 07) LIGO/VIRGO detection rates: R gr 1yr 1 ( 1 per 100 yr) IC10 BH-BH-like merger rates: M chirp 20M : detectable to d bhbh 200 Mpc ( )( ) 5/2 ( ) 3 ( ) 3 ( ) 4π Mchirp R gr = 0.63 dnsns 2Mpc 10 6 yr Ω s 18M 18Mpc d chandra t xray yr 1 LIGO/VIRGO: R gr 1yr 1 (Bulik, Belczynski & Prestwich 08) Chris Belczynski Double Compact Objects
18 Summary Gravitational wave detectors can uncover the formation history (evolution) of close binary stars Modeling: parameter space is quite large; need to test different model assumptions a priori (initial orbital parameters, prescriptions for CE efficiency, stellar winds, etc.) Important for understanding Gamma Ray Burst progenitors, potential progenitors of Type Ia supernovae, accretion-induced collapse neutron stars, R Cr B stars, X-ray binary star evolution, etc.
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